Boring machine and the like



Nov. 12, 1935. J. BARNES Er AL 27,020,868

' BORING MACHINE AND T HE 'LIKE' Filed Jan. 18, 1950 6 Sheets-SheetV 1 Nov. 12, 1935.

J. s. BARNES Er Al.

BORING MACHINE AND THE LIKE Filed Jani 18. 195o 6 Sheets-Sheet N0v.12,1935. l J, s, BARN-Es UAL 2,020,868

` BORING MACHINE AND THE LIKE Filed Jan. 18. 1930 6 Sheets-Sheet 3 Nov. 12, 1935.`

J, s. BARNES Er AL Filed Jan. 18', 1930 6 Sheets-Sheet 4 RHP/D Travs/515 APPROACH FEED /PPRo/vcf/ --A/EUTRAL FEED EVERSE T Rw VERSE Re VERS E Nov. 12, 1935. J. s. BARINIES'y E'r AL 2,020,368

' l BORING MACHINE AND THE LIKE l Filed JanY 18, 1930 6 Sheets-Sheet 5 `Nv.12,1935. is, BARNES UAL Y 2,020,868

BORING MACHINE'AND THE LIKE Filed Jan. 18, 1950 6 Sheets-Sheet 6 Patented: Nov. 12, 1931.5 I

.fnonmo MACHINE AND John s. Barnes and raux n. Gum, nochma, m.,

assignors. ,to

W. F. & John Barnes Company,

Rockford, lll., a corporation of Illinois Application .mmm 1s, 1930, seria m.l 421,667

asA claims.

"Our invention relates generally to improvements in machine tools such as-boring machines' and the like and more particularly lto/ improvements in machines whereby a successive or series of cutting operations may be performed upon the-work.

The 4trend in the `development of material working apparatus, such as drilling, boring,mill

-ing and other'types of machines should be/toward designs which will reduce, as tartasA possible,` the 'eii'ort and s kill required by an attendant in operata-ig the machine without impari-ing the machining accuracy of the device; Machines' which have heretofore been employed have in many instances not only required fatiguing,

physical exertion on the part of the operator, but

. have also necessitated thepractice of considerable skill in order to eifect the proper positioning said work, said operations being performed with absolute accuracy and with 'a minimum amount of skill andefiort on the part of the operator.

Still `another object of our invention is to provide in combination with a movable work support and shiftable tool carriage, an emciently operable hydraulic control which will serve to automatically govern the intermittent shifting of the work and the movement of the tool toward and away from the work. 1

AStill more specically, one of the objects 'of ourl invention is to provide an improved cam mechanism for controlling th'e intermittent movement of the work supporting table in such a manner asv to accurately Vand positively position 'the work 15 so as to be operatively engaged by a rotarytool which is movable vertically with respect to the table.

Another object is to provide a machine as above set forth which is adapted to 'be equipped gq with a variable displacement fluid pumping mechare adapted to perform a series or succession of 4operations upon-the work because in such in stances it'has often been necessary-for the operator to prforma plurality of successive manual operations such as inl starting and stopping 'the machine, arranging the work, making adjustments, etc.

Thus, it is one of the important objects of our present invention to provide a. material working apparatus of improved practical construction by means of which the above mentioned and immer` ous other difllculties in shop practice which have heretoforebeen experienced,.may be avoided. To

this end we propose to provide a machine which is automatically operable to perform Va. Aseries of cutting operations, it being only necessary for a workman to set up the work on'the machine and then by a single manipulation-ot a control'handle. initiate the performance of the above mentioned l successive cutting operations.

More specically, our invention contemplates the provision of'a machine in which the worlrV set up on a carriage or table which is adapted for intermittent linear movement, a cutting tool being designed 4to be automatically and successively moved into and out of operative engagement with the .supported work, the intermittent shifting of the work on the carriage beingcontrolled intimed relation with respect to the movement of the tool.

Another object is to provide a machine of improved automatic design in which a series of cutting. operations'may be performed on the work by a tool which is shiftable toward and away from anism. said-machine having means for supporting a rotatable cutting tool which is adapted to be hydraulically reciprocated, and a work supporting table which is adapted to be intermittently g5 and hydraulically moved in a linear direction transversely ofthe reciprocable tool support.,l

These and numerous other objects and advantages will be more apparent'from the following detailed description when considered in-connec- 30 tion with the accompanying drawings, wherein:

Figure l is a front elevational vi'ew oi.' a machine which .is representative of one embodiment of our invention Y `Figure 21s an enlarged elevational view of the 35 mechanism for controlling the reversal of the work supporting carriage, said view being taken substantially along the line 2 2 of Figure 1;

Figure 3 is a central sectioned view or the mechanism shown in Figure 2, the same being 4|) taken substantially -along the line 34 of Figvure 2, certain of the parts such as the cam for the manual control mechanism shown in Figure 4,. the work table andff'associatedparts being shown fragmentarily and in section for the purpose of more clearly disclosing the invention. In Figure 5 the tool head is shown in its neutral or starting position while ln Figure 4 said head is shown inI its lowermost position;

Figure 6 is an enlarged fragmentary v iew shown partly in section 'lof the mechanism for automatically causing the main controlvalve to be shifted to its neutral-position upon the completion of the advancing travel of the machine table;

Figure '1 is a fragmentary detailed elevational view of the cam and associated roller-follower for operating the mechanism shown in Figure 6, said view being taken substantially along the line 1-1 of Figure 6;

Figure 8 is an enlarged fragmentary end view of the machine as viewed along the line 8-8 of Figure 1 disclosing the construction of the takeup reel for the flexible cover member;

Figure 9 is a fragmentary'- central vertical sectional view taken longitudinally of the work supporting table, certain of the parts such as the indexing drum cam'being shown in elevation;

Figure lois a 'diagrammatic developed view ofthe indexing groove in the drum cam showing arrangement of cam plates;

Figure 1l comprises four diagrammatic representations of the cam drum which' disclose the successive positions of the cam groove with respect to the follower pin Figure 12 is -an enlarged vertical sectional view taken substantially along the line |2--i2 of Figure 9; and- Figure 13 'is a semi-diagrammaticrepresentation oi the oil circuit and the electrical circuits for` automatically .controlling the operation of the machine. j

Referring now to the drawings more in detail wherein like numerals have been employed to designate similar parts throughout the various figures, it will be observed that one embodiment f of the inventionincludes a suitable elongated soJ machineframe or base 20, the upper portion of .l which slidably supports a work supporting table or carriage 22. 'I'his table 22 is provided with an independentbracket 26, Figures 1 and.13,

which is-connected at its lower extremity with a piston rod 26.' The opposite extremity of the piston rod 26 carries a hydraulically operated piston 26 which is reciprocable within a cylinder 38.` By means later to bedescribed, fluid is directled'intoI the cylinder 36 so as to effect linear movement of the carriage or Itable 2li.v

Positioned centrally and to the rear of the.

machine base 28 is an upwardly extending frame ,section 32. The front face of this frame 32 is provided with vertical guides 3 4 which are adapted to slidably receive a tool head or unit which' isdesignated generally by the numeral 66.4 Vertical :reciprocation is imparted. tothe unit i6 through the agency of a suitable hydraulic mechanism I8 which includes a piston Ill and a cylinder 42,'n'igure 13. 'rms piston la is connected in any suitable manner b y means of a' bracket Il to the unit 36. 4Fluid. is supplied to the mechanism 3 8 -bymeans later to 'be 'described.

The tool head or unit 36 includes a-frame 46 and this frame 46 supports an electric motor 48 -whichdrlves a depending tool spindle .60. -In Fig- Aure 4 the spindle 60 is shown in operative .associatlon Awith a boring tool 62. Supported on one side.ofthe tool'un'lt66 is a cam member. 5i which is designed to cooperate with a follower or pin 56 carried at one extremity of an arm 56. This arm 68 is loosely mounted upon a shaft 66 carried by the machine frame 32. A lever mechanism 60 operates a vertically disposed valve rod 6 spring 14 by means 'of a manually operable lever 16 16. This lockingmember is adapted to interlock with a section 18 which is formed integral with the arm 68 so as' to enable said arm to be manually operated by and movable as a unit with the control lever or handle 1il. Whenthe control l0 lever 10 occupies the horimntal osition shown l. in Figures 5 and 13 and the tool head or unit occupies its. uppermost position as shown in. said figures, the cani follower or pin 56 occupies a position which will be hereinafter referredto as 26 the neutral position. When the cam follower occupies this neutral position, the position of'the valve rod 62 -is such as to cause a' main valve unit 86, about to be described, to occupy a neutral position, see Figures 4, 6, and 13, This main valve unit 88 forms a part of the fluid or oil circuit. which controls the reciprocation of the work supporting table 22 land the tool head or unit 36 and is connected to a couventional variable displacement pump mechanism I6 shown diagrammatically-.and' designated generally by the numeral 82 in Figure 13. 'Ihis variable displacement pump mechanism is a commercial article known as Oil-gear and is manufac- .tured by The Oil Gear Co. of Milwaukee, Wiscon- 40 sin', and inasmuch as the specific structural arrangement of this pump forms no part of the present 1invention, except as it enters into the general combinationof the machine elements, a

detailed illustration and description thereof is not 1,5

right machine frame section 32 and is connected ius to a drive shaft 84, Figure 4,. which carries adriving pulley 66.. High pressure fluid from the pum'p mechanism V62 passes through the piping 68, Figures 6 land 13, while low ',pressureA fluid Passes through the pipe line'sii.` Pipes 62 and 84 conen nect the main valve 80 with the hydraulic mechanism $8 which controls the vertical 'reciprocation of the tool unit 36. The pipe 96 is also connected t'o the high pressureside of the pump 82 for purposes of control while the pipe -88-.serves as .a e5

returnline.

With the foregoing description in xnlnd it will be apparentl that if the .control handle-10 is swung downwardly when the member 12 interlocks with the section 18 formedintegral with 70 the arm 68, the valve rod 62will be raised and this will shift the valve. member |00 of the main valve unit 8 0 upwardly toits rapid traverse posi--l tion as indicated by the transverse dot-anddash lines in Figure 6. Simultaneously' the cam' fol- 15 acca-'sce Y lower. te en .:,hefmqveas with@ dotted: position ,-.designated asino, -Figure 5.. :11i-'luid from the -pipe 6 4. will be directed-mtoithecylinder 42 and therewardlyi During@the initial portionrof this 'downwardmovement, the follower" 56 will. bepositioned wit-hinthe.verticalcamf-'groove |02, Figure 5, so as to maintain-"the rapid :traverse position of the main valve- 'Illll. When. the follower-56 reaches the- -groovesection |03, said follower 'will experience a movementr-tothe'right which willI be sumcientz-toacause the valve to be shifted downwardly to its feed position.` The tool -head #will then experience" a downward movement at a-feeding rate and thecam follower will be positioned within the section` |04 of theeam ie'mber. When the c am member 54 has been lowered'to the position at which the cam follower 561s positioned within the section |65V of the camgro'ove,

vsaid follower will experience a sudden movement to the right in-response tothe action of a coil spring |06, thereby causing the main valve |00 to be shifted to its reverse rapid traverse position. will cause the tool head or unit to be moved upwardly at a rapid rate and the cam follower will be positioned in the groove section the groove section |09. As the cam .'54 approaches the limit of itsY upward movement, electrical means in the form of a solenoid I |0 is energized so as toexert an upward pull on the valve rod 62. "Ihis will cause the automatic shifting of the cam follower 56 from the groove |06 past the neutral position shown by solid lines in Figure .5 to the rapid approach position designated by the numeral 56din Figure 5. In this manner another cycle of operation is automatically initlated and the tool head or unit will experience another complete reciprocation similar to the movement just described.

The-electrical circuits for controlling the operationof the solenoid l||| will be later set forth in detail. -It will be apparent that if complete manual control ofthe valvefunit 60.fis desired. it is onlyne'cessary to retract the locking member 12 by actuating the lever 16, thereby disconnecting the cam follower arm 56| from the lever mechanism 6|).y f

Having described the mechanism for effecting Vthe reciprocatlion of the tool head 36, we will vnow proceed to describeA the mechanism for causing the tool-supporting table or carriage 22 to be intermittently moved in timed relation with respect to the reciprocation of the tool head.

The mechanism for-controlling this intermittent movement of the work carriage includesf an indexing means or cam drum ||2 (see Figures 9 to 12 inclusive and Figure 5). This cam drum ||2 is rotatable with a shaft ||4 which is mounted byv includes a plurality or step sections, each step section including a circumferential section |24 and a longitudinally extending groove section |26.

Connected betweenl the opposite extremities of these step sections is a helical groove section To render the cam drum read- 126.-? One' extremity of the work supporting car--A riage 22 :supports va cylindrical upright frame |30- -which provides a mounting for a rotatable sleeve' |32, the opposite extremities of' this vsleeve :|32 being rotatable Within suitable anti-friction 5 roller-hearings |34. This sleeve |32 ,carries 'a central cam follower pin o r member |36, the lower extremity of which projects into the cam groove |22. It will-'be noted that the diameter of ithe follower pin |36 is substantially equal to l0A the width oi the cam groove. The pin |36 may be readily removed from the top to eiectthe disengagement thereof from the cam-groove. An indexing-gear |36 to the left, Figure 9, is rotatably mountedupon the cylindricalcam supporting shaft ||4'..- One vsideof-tl'lis gear |36 is provided with: a clutch-member |40 which is adapted to operatively engage a companion clutch member |42. The clutch' member |42 is constantly 1 vurged toward the clutchmember |40 through the 20 action of a suitable coil spring -|44 which is interposed between the clutch` member |42 and an indexing plate |46 which is keyed to the shaft I||4. This indexing plate |46', Figures 9 and 12,

is provided with a plurality of peripheral notches 25 IIB-which are adapted to receive a spring pressed latch member |50. The function of this indexing plate will be more 4apparent as the description progresses.-

The indexing gear |36 is operatively connected 60 with the tool head or unit 36 through the agency of a rack bar |52, Figures 5 and- 9 which also meshes with a gear |54 carried at one extremity of the shaft |56. The opposite extremity of this shaft |56 carries a gear |56 which meshes 66 .with a vertical rack bar |60. The upper portion of the bar |60 has a'slidable connection with the tool head by means ofa slide bracket |62 secured vto :the side of said head. Upon the downward stroke ofthe tool head, the bracket |62 slides 40 upon the bar |60 and as the bracket |62 is moved into engagement with a shock absorbing spring |64, a downwardmovement is imparted to the bar |60. The downward movement of the bar causes the indexing gear |36 to be rotated in a. 45 clockwise'direction as viewed from the left of Figure 9, thereby causing the teeth of the clutch members- |40 and |42 to click past each other without imparting a'rotative-force to-the cam-- drum ||2. As the bracket |62 is carried up- 50 wardly, it is eventually moved into engagement with a stop nut |66 which is adjustably mounted at the upper threaded end of the bar |60. Gonsider for example that the cam vi'ollower pin |36 is positioned as shown in Figure 11, dia- 55 gram A at th'e time that the stop nut |66 is engaged by a collar |66 at the upper end of the vcam drum I2 to be rotated from the position shown in diagram 'A of Figure 11 tothe position shown in diagram B. Thus the follower member |36 is positioned with respect to the cam 10 groove so as to permit the work supporting table to be urged to the right, Figures 9 and 13, in re. sponse to the movement of the piston 26 within the cylinder 30. The movement of the table 22 is interrupted bythe engagement of the follower f this linear movement of the table, the bracket -tion may be performed.

|02 carried by the tool4 head continues to move upwardly a short distance and-the spring is compressed by reason of the engagement of the collar |60 with the stop |96. Therefore, when the cam groove and follower member .arel positioned as shown in diagram C of Figure 11,

. the force of the spring |10 will be suihclent to cause the cam drum .to be slightly rotated to the position-shown in diagram D of Figure 1l. The cam drum is brought to rest at this position through the action of the. indexing plate |46,. Figures 9 and 12. The spring pressed latch |60 automatically engages one of the notches |48 so as to cause the cam drum to be automatically positioned as shown in diagram D of Figure 11. The shifting of the work supporting table in the manner just described enables an.- other portion of Ithe work supported thereby to be positioned beneath the tool 52. In other words, the table is automatically shifted vto a position wherein a new metal removing opera- 'As the bar Isn reaches the limit of its upward movement, a cam member |12 carried thereby,

Va circuit-containing Figures 5 and 13, is moved into engagement with a roller |14 of anelectric switch designated generally' by the numeral |16. 'I'his switch may be of a suitable conventional type as forexample those manufactured by the Cutler-Hammer Manufacturing Company of Milwaukee, Wisconsin. This switch |16 is normally open and by rethe circuit diagram shown in Figure One side of the switch is connected apparent.

to .one side .of a

-by means of a conductor |19 source of power supply through a conventionalmagnetic contacter which is diagrammatically shown 'in Figure 13 and designated generally by the numeral |00. magnetic contactor is also a standard product and therefore the structure thereof need not be described in detail r for aclear understanding of the present-inven tion. The other side of the switch |16 is connected by'means of a conductor |02 to one side of asimilar normally closed switch |84 and the opposite side of this switch |04 is connected by a conductor |06A to the opposite. side of the magnetic contactor |80. Thus, if the switch |04"is closed at 'the time the switch |1615 automatically closed through the action of the these switches will be closed which will energize the magnetic oontactor so as to close a circuit containingI the solenoid ||0.

1 This solenoid is electrically connected to the contactor by conductors |00 and |00. By energlz ing the solenoid ||0, the 4valve rod 62 is automatically pulled upwardly so as to causeV the valve |00 tfbe positioned in the rapid traverse approach position. which carries the cam swung downwardly so as follower 56, lFigure 5, is to position said follower member inthe position designated by the numeral 56a in Figure 5. In this manner the uid system is` hydraulically conditioned to4 repeat the cycleat operation Just described wherein -the tool head is rstmoved downwardly at a rapid ;approach speed to a predetermined position, at

which position lthe tool -head'is automatically fed downwardly 'at a feeding speed until the completion 'of its cutting stroke. At this point the' follower member E6 is swung across the groove portion |05 in the. camf54-so as to condition control mechanism includes a cam |99 which is Simultaneously the arm .50

.which carries a-pinion 2|6.

the uid system for rapid reverse traverse and subsequently the tool head is moved upwardly at a feeding rate. From the foregoing it will be apparent that the cycle of operation of the tool head will be repeated in timed relation with the intermittent linear movement of the work supporting table 22. Thus, a work piece such as the block |92, shown in Figure 4, may be intermittently moved forwardly, and during each dwell,. the tool 52 will be automatically moved into and out of operative engagement therewith. The successive cutting operations are continued until the cam drum has been rotated so .as to bring the extremity |94l thereof, Figure 9,into association with the follower member |06. At this point the member |26 cooperates with the elongated helical section |20 of the groove |22 in automatically 4causing the table |22 to be returned to the starting' position. In other lwords, the

table is automaticallymoved to the left, Figure 20 9, until the cam groove and follower member occupy the position shown in diagram'il of Fig'- ure l1. 11n connection with the reversing of the work or fixture 4supporting tablel 22,v attention is directed to a control mechanism positioned at one extremity of 'the machine to the right, Figure .1, which we have4 designated generally by the numeral |96, see also Figures 2, 3, 4, andf13. This supported at one extremityof the shaft Y| |4-.and is provided with a circular lower cam ysurface 200 and a circular higher cam surface 202. During the intermittent movement of the `cam drum ||2, the lower cam surface 200 engages the upper extremity of a follower member204 and this follower member is urged upwardly against the cam surface-.by means of asuitableispringlili.. The lower extremity of the follower member 204 forms a stem of a valve mechanism designated o generally by thelnumeral 209. This valve mechanism 200 is a standard 4-w'ay pilot valve and is connected to opposite extremities of the cylinder 30, Figure 13, by means of suitable piping 2|0 and 2|2. ber- 204 downwardly and the surface 202 holds the member 204 stationary. Shifting' the member 204 downwardly from the position, shown in Figure 2, actuates the valve 200 so as to cause fluid to be delivered -in a reverse direction to the 50'-,-

cylinder 30, thereby effecting reverse 'movement of the table 22, to the left,.Figure 9 This move-i l ment of ,the table causes relative movement between the follower-member |06 and the helical groove section |28; When the table reaches the limit 'of its reversing movement the lower surface, 200 of the cam will be associated with the follower 204, thereby causing'.the -valve 200 to effect delivery of fluid in a forward direction to the cylinder 20. The fluid is delivered from the oilgear purnp 02 at a 4constant volume and: is directed back to the pump again byv means of bypassing if not utilized for the purposelof propelling or actuating any member.

Attention. is directed to a cam 2|4, Figure 2, A y The pinion` 2|| meshes with rack teeth 2|9 provided on'the follower member or bar. 204. .As the bar 204 moves downwardly, the cam 2 I4 is rotated 'and actuates a roller 220 of the ,normally closed switch |84. 70

Opening the switch |04 at this interval prevents the solenoid '0 from being energized. This in turn prevents the follower member 66, Figure 5',- from being :moved tojthe lrapid traverse position" 56a. In other words. during the reversing move 75 The cam surface 200 shifts the .mem- 5 I mentfof `the table there must be no downward;

cam`214 will have been. movedback to the position shown in FigureZ, thereby effecting the closing of the switch |84. 4The timing of the cam 2|4 may be slightly retarded in action so as not to allow the -normally closed switch A|84 to beopened before the a work supporting head 28 has traveled downwardly asuitable distance in response to the I manual manipulation of the main control lever.

Inorder to effect the positive returnl of the main control valve to its -neutral position vwhen the tablet has completed-sits cycles-fof operation, we@ provide a control mechanism 'which is designatedy generally by the" numeral 222, Figures 4, 6, 'T, and

13.- This'mechanismincludes a cam block 224 which iscarr'ied u'pon the inner side and at one extremity or theV tame i1-carriage 2z. as the table reaches the limit of its reversing movement, tothe left, Figures land 9, `the cam block 224 is carried -into engagement with a roller 226 which is mounted within the upper extremity of a sleeve 228.:v .This sleeve, 2,28 is reciprocably mounted withinV a bracket 280V -secured to the side of the' machine base or frame. The sleeve- 228l is formed with '-a lateral boss lfor receiving a locking pin 232.

'spring234 normally urges .the pin inwardly and when the 'pin' 'occupies the position shown fin Fig'- ure 6, 'the inner end thereof engages the upper end of a shaft 238.- Ths, when the cam block 224 engages the roller 228, the sleeve 228 and shaft 286 movedownwardly Aas a unit and'cause a valve mechanism 238 to be actuated. The valve mecha- -nism 23|! may be a conventional three-way pilot valve and is connected with'the lower end of an auxiliary valve mechanism 240 by means of a pipe line- 242. Pipe lines 244 and 246 serve to'connect the valvemechanism with the pipe lines 90 and. 98 respectively. A' return pipe line 24| connects the auxiliary valve mechanism 240 with the pipe line f 06. From thev foregoing it should be .understood V that normally, the fluid from the system circu- '-lates` tbrough the valve mechanism 238 and the connecting pipe 1ines244 and 2 46. However, when thc 'shaft 288 is lowered through theaction of the cam block 224, the valve isv conditioned to direct uid through the pipe line 242 into a cylinder 248 of the auxiliary valve 240. Within the l cylinder 248`is a piston 250 which has a connecting-or-piston rod 25.2 slidably mounted therein. 'Ille-upper end of the piston rod 252 is connected tothe lower endof the main control valve |00. It rwill thus be apparent that'when a charge of iluid is introduced within the cylinder 248, the

, main valve |00 will be moved upwardly until the piston head 280 reaches the position shown in Figure 8. This movement is sumcient to carry the -main valve |00 lto its neutral'position andA no farther. The mechanism 222 thus serves to effect the positive, automatic return of the main valve |00 and consequently the maincontrol lever tothe starting or neutral position when the table 221 has reached the limit of its movement and after the tool head 38 has been shifted to its upper, inoperative position. In order to return the valve mechanism 288 to its normal position subsequentxto the .downward movement` of the sleeve 228 and the shaft 268, we provide a lever mecha-I nism, Figures 4 and 6, which includes a vertical rod 254,. The upper end'oi.' this rod is threaded toreceive adiustablestopnuts 288 andpasses through a bracket 258 carried by the valve rod l82.

" The lower'end oi the rody 264 is pivotally con.-

nectedmwlth a bell crank 280. One arm of this swings fthe bell crank so as to move' the locking 5 pin 232 outwardly. When the-inner Iend oi'- the pin clears the .upperend ofthe rod 238, a spring r -280, Figure 6, moves the shaft'238 upwardly. l, A'

second spring 262 urges the sleeve 228 upwardly, therebyautomatically reestablishing the engage.- ment of the `locking pin232 with the shaft 288.

In the operation of the vabove described apparatus,'the workpiece, such as an engine 4block |92- ywhich isfto have- .a series..of aligned holes.. formed therein, is mounted upon the table 22, and may be secured in position by means of suitable clamps 264. The table 22 will-then occupy the` position shown inFiguresl 1 and -9, and the follower member or pin |38 will occupy the povsitlon shownl by the diagram A in Figure 11. 2o After theblock has been properly mounted, the motor 46 activated and rotation has. been impartedjto the pump driving pulley 86, the `operator exerts a downward pull upon the lever IlV so as to -move the follower member 58 to the 25 -rapid traverse approac'lrposition shown in Figure.5. Thisv conditions the fluid system so as to effect thev downward rapid movement o i the tool head 36.4 When the tool 52 engages the work, the downward speed of travel is reduced to a feeding speed and when the tool reaches its lowermost position, the main valve 80 is automatically conditioned for reverse vrapid traverse to reverse the movement of the head. As the tool head is being elevated, a partial rotation is imparted to the drum-foam ||2 so as to position the same as -shown in, diagram B of Figure v11.- The fluid pressure on the table shifting piston 28 then causessaid table to .be shiftedso as to carry the follower pin |36 to the position shown in diagram 40 C in Figure 11. Upon reaching that position, the drum cam is' again partially rotated to the position shown in diagram D of Figure 11., In this position thefollower member positively secures the, table against movement and also accurately positions qsaid table with respect vto the 'cutting A tool 82. As thetoollheadreaches the limit of its upward movement, the normally openI switch |18 is closed so as to complete an electrical circuit which includes the solenoid I Il. Energizing this solenoid causes the valve rod 82 to be raised and .consequently causes the follower member 58 which is canied by the arm 58, Figure 5, to be automatically-shifted to the rapid approach position 58a. The cycle of operation of the cut-55 ing tool is thuslautomatically repeated. It will .thus be apparent that the intermittent linear movement of the table takes place in timed relation with respect to the reciprocating movement of the cutting tool and that the work piece 60 carried by the table is automatically shifted to successive positions beneath the cutting'tool. As the table 22 reaches the limit of itsintermittent advancing movement, the control mechanism |88 is actuated through the agency of the cam |88, the surface 202 of which engages the follower member 204, so as to reverse the direction of uid delivery to the table actuating piston 28, and the cam 2 I4 operates to open the circuit which contains the solenoid H0, thereby temporarily preventing the energizing of this solenoid. As the table 22 completes its reverse movement, the cam 22,4'carrled` thereby engages the roller 228 of the control mechanism 222 so as to cause the main lvalve |00 to be automatically and positively 75 i such as the cam drum', while the other is autolocking pin 12 and enables the operator' to manumoved-to its neutral position and another cycle of operation may be initiatedby manually manipshownjn Figure 9. Thus, as thetable moves in either direction, one of the ilexible covers 26B is moved over certain 'of the machine elements matically taken up by its companion reel. It is to be noted that the step or si'nuously disposed portion of the drum cam groove 122 is formed by properly distributing a plurality of hardened plates 210 along the'periphery of the cam drum as clearly shown in Figure l0. These plates may be ured to the drum in any suitable manner such as by means of screws 21| so as to 4render the same readily replaceable. It is also to be noted that surface' portions-ot the plates 210 which receive the severest shocks as the result of the forward imovement fof the" 'table are those portions which are positioned at the extreme right 0i' the longitudinal 'groove sections |26, Figures 9, 10, and diagram C of Figure 1 1. However, the

nal positioning of the table with respettojthe" cutting tool 52 is do'ne by theoppositely disposed cam surfaces positioned intermediate the circummovement o'f the cam drum. Therefore, the ar-l rangement of the plates 210 is such as 'to take up sudden shocks on the surface portions which .are not used for iinally positioning the follower member, and the surfaceport'ions which are used for that purpose are subjected to very .little, if

any, Wear.

The invention is particularly adaptable for use with variable displacement iluid pumps and while we have disclosed a particularpumping mechanism for the purpose of illustrating the invention, it should be understood that various otherl fluid propelling devices may be employed with equal effectiveness without departing from the 4Spirit and scope of our invention. Machines constructed in accordance with the teachings 'of our' invention have proven verysatlsfactory in connectionwith drilling or boring a succession 'oi' holes in an engine block and obviously' the invention is capable of numerous other practical applications. From the above description it will be apparent that minimum effortand skill on the part of the operatoris required in controlling a machine whichV is constructed in accordance 'with the teachings of our invention; A 'single movement of the controllever -by the: attendant is all that is necessary to' start-the machine in operation and the *successive cutting operations and table movements will automatically'follow. Thecontrol lever is so arranged that the same may be disconnected from the arm which carries the follower member 56, Figure 5, by merely actu- 'ating the auxiliary lever 16. This disengages the ally control all of the movements ofthe machine.

Having thus described our invention, what we claim as new and desire to secure by Letten Patent is! I'hese surface portions` accesos 1. In metal working apparatus oi.v the class described, work supporting means linearly shiftable vin opposite directions,-tool supporting means shiftable transversely with respect to "said work supporting means; ya fluid 'pumping mechanism, li5

a hydraulic transmission operativelyconnected with said pumping mechanism for 'eiecting movement of the-work 'supporting means. said hydraulic transmission comprising a piston Awithin a cylinder and operatively connected with l0 said work supporting"v means, mechanism interposed between said hydraulic transmissi'o'nand said pumping mechanism for eiecting the reversal of said hydraulic transmission.' means operable in A'timed relation with respect to the movement of said' work supportinginean's for controlling the actuation of said reversing mechanism, and means for successively interrupting the movement oi said -work supporting means during the advancement thereof in' a 4given direction and for securing-said work support in a predetermined position during each successive dwell thereof in cooperation with said hydraulicA transmission acting thereagainst.

2. In metalworking apparatus of ,the Aclass described, work supporting means linearly shiftable in opposite directions, tool supporting means shiftable transversely with respect to said work supporting means, a fluidpum'ping mechanism, a hydraulic transmission operatively connectedV 4with said pumping mechanism for effecting movement of' the lwork supporting means, said hydraulic transmission comprising a piston with- -in a cylinder and operatively connected with said work supporting -means, mechanisminterposed 3 -between said hydraulic transmission and said pumping mechanism for effecting the reversal of said hydraulic transmission, means operablezin timed relation with respect to the movement of said work supporting means for controllingvthe. actuation of said reversing mechanism, and

.shiftable abutment means for-intermittently in- 'l terrupting the movement of said 'work supporting means and for securing said work supporting means in a preselected position during each successive dwell thereof in cooperation with the hy'- Y draulic transmission acting thereagainst, said shiftable means being operable in response to th movementof saidtool supporting means.

3, In metal working apparatus of the class described, shiftable work supporting means,4 tool supporting means' shftable transversely with re-" spect to said work supporting means, a iluid pumping mechanism, a hydraulic .transmission operatively connected with said' pumping mechanism for effecting movement of the work supportingmeans, said hydraulic transmission coinprising a piston within a cylinder and operatively connected with said work supporting means,

mechanism. interposed between. said hydraulic transmission and said pumping mechanism for' means positioned beneath said carriage having a sinuous way for receiving and guiding said fel- `lower means'to effect the successive positioning of said carriage, means operable in-response to the movement of the tool supporting means for actuating saidrotarymeans, and fluid actuated means for imparting movement to said work supporting carriage.

5. In combination with a s hiItable work supporting means and a tool supporting means shiftable transversely thereof, a carriage control device including a rotary member provided with a peripheral way to enable intermittent movement of said work ,supporting means, 'axially thereof, said way being presented between a series of oiset insertable hardened metallic abutment blocks adapted to' withstand sudden shocks in response to the shifting movement ofv the work supporting means,l the offsetting of said metallic blocks determining the degree of intermittent travel of the work supporting means.

6l In combination with a reciprocable carriage for supporting means and a tool supporting means shiftable transversely thereof, a rotary control device including a member having a peripheral way including 'portions to enable the successive positioning as said. work supporting means-progresses vin a given direction of the carriage and other portions for arresting the movement of said carriage, and an indexing mechanism including an indexing member rotatable with said rotary control member and means cooperating with said indexing member to automatically .position the rotary control member and to prevent the overrunning of said control member in response to the rotary movement imparted thereto.

1. In metal working Aapparatus of the class described, shiftable work supporting means, tool supporting means shiftabletransversely with re- Y spect to said Work supportingmeans, a hydraulic transmission operatively connected Withsaid work supportingxmeans, a hydraulic transmission operatively connected with said tool supporting means, a fluid pumping mechanism, a main iluid valve for controlling the displacement of fluid to said hydraulic transmissions, and abutment means adapted to be engaged by the structure of the work support for successively interrupting the 'progressive movement of said work supporting .means as said work supporting means moves in a given direction and functioning in timed relation with respect to the movement of said tool supporting means, said hydraulic mechanism being connected with the work supporting means so .as to urge said means against-the abutment-and mechanism; a shiftable valve for controlling the displacement of fluid to said hydraulic transmissions, means for successively interrupting the movement of the work supporting means as said work supporting means is moved in a given direction, and means operable in response to the actuation of said work supporting means .for au- .tomatically shifting the valve to neutral posi- 9, In metal working apparatus of the class described, shiftable work:l supporting means.. tool supporting means reciprocable transversely with .5

respect to'said work supporting means, means for eiectlng intermittent movement of the work supporting means, fluid actuated mechanism for4 effecting re'clprocation of the tool supporting means during successive dwells of the work supporting lo means, a fluid control valve-operatively connected with' said uid actuated mechanism, and an electrical circuit including electrically operated means vfor shifting said control valve to automatically initiate the reciprocating movement of 15,-

the tool supporting means, said circuit being controlled in accordance with a preselected position of said work supporting means.

'10. In metal working apparatus of the class described, shiftable work supporting means, tool 20 supporting means reciprocable transversely with -respect to said work supporting means, means for effecting intermittent movement of the work supporting-means, fluid actuated mechanism for effecting 'reciprocatio'njof the tool supporting 25 means during successive dwells of the work supporting means, a fluid control valvefoperatively connected with said iiid actuated mechanism, an electrical circuit including electrically operated means for shifting said control valve to auto- 30 matically initiate the reciprocating movement of the tool supporting means, said circuit' being controlled in response to the movement of said' worksupporting means, means for controlling the reversal of the worksupporting means, and means 35 for rendering the -electrically operated means functionally inoperative during the reversal of said work supporting means. l'

11. In metal working apparatusof the class described, shiftable-work supportingmeans, tool 40 supporting means reciprocable transversely with respect to said work supporting means, means for effecting intermittent movement in a given di- -rection to ,said Work supporting means, fluid actuated mechanism for 4effecting reciprocation of y15 the tool supporting means during successive dwells of the work supporting means, a shiftable fluid valve for controlling the displacement'of fluid to said fluid actuated means, and an electrical cir cuit including an actuator for shifting' the valve 50 to automatically initiate each reciprocation of the tool supporting means, said circuit including a plurality of switches, one of said switches being operated in response to the movement lof the worksupporting means and another switch being 55 operated in response to the movement of the'tool supporting means, whereby t-o govern the opening and closing of the circuit in timed relation with respect to the movements oi the work and tool supporting means. 6o 12. In metal working apparatus, a shiftable work supporting means, a tool supporting means shiftable transversely with respect to the movement of said work supporting means, iluid operated mechanism for actuating said tool support, 65 fluid actuated means progressively and intermittently shiftable in a given direction for effecting the intermittent linear movement in a given direction of said work supportA in timed relation with respect to the movement of said tool supporting means, means co-acting with the actuator for the work support to automatically secure theywork support in a preselected position during each successivedwell thereof, a variable displacement pump, a main valve for directing fluid from 75 said pump to said iluid operated mechanisms, and a single manually operable means for controlling the functioning of said main valve in dispatching -iluid to said iiuid operated mechanisms.

I 13. In metal working apara'tus oi' the class described, a pair of slidable members, a' uid operated mechanism connected to one oi' said slidable members, a-se'cond iiuid operated mechanism lconnected with the other slidable member, a

a reversal of fluid displacement to said second mentioned fluid actuated means.

14.In an -apparatusof the class described, a pair of slidable members, fluid actuated means i operatively connected with'one of said members,

a second iluid actuated means connected with .the other slidable member, as'ource of fluid supply, a main valve for'controllingthe displacement of fluid to the rst mentioned. fluid actuated means, an auxiliary valve for controlling the displacement of iluid to saidsecond mentioned fluid actuated means, a second. auxiliary valve for controlling the' displacement of iiuid to said main valve, whereby said main valve is shifted to a neutral position, electrically controlled actuating means for successively shifting said main valve in a reverse direction, means operable in response to the movement of one of said slidable members to move the main valve-in a given direction, means fortemporarily rendering the electrically lcontrolled vactuating' means functionally inoperative, and' a manually controlled starting means for initially shifting said main valve.

15. Inl combination with a pumping mechanismA adapted to-eifect a variation in the displacementoi fluid, a shiftable work supporting 'means' a hydraulic actuator therefor, a tool supporting means shiftable transversely with respect to said work supporting means, a hydraulic actuator for' said tool supporting means, a iluid circuit arrangement including a shiftable valve mechanism' for controlling the delivery ofA fluid from' said pumpingimechanism to-saidhydraulic actuators, means including a series of adjacently positioned' abutment surfaces and a member 'adapted forengagement' therewith, said'abutment surfacesI and member cooperating with, the first mentioned hydraulic actuator for eifecting a step by step advancement of said work supporting means and for positively vsecuring the work support inV a preselected position during each successive dwell thereof, and control mechanism including a single manually operated delvice for "controlling the timed intermittentmovement of the work supporting means and the ,movement of said tool supporting means and for-automatically arresting the movements Aof said work and tool supporting means at a predetermined interval to enable the .replacement of a work piece on said work supporting means.

16. OA machine tool including a base, a'work supportingl means horizontally reciprocable upon, said base, a tool support positioned -upon said.v

reciprccable -work Support and shiftable toward and away from a -work piece supported thereby, means for .effecting f the reciprocation of, said tool' support, hydraulic mechanism for shifting porting means, means for effecting timed rotary said work supporting means, rotary control means adapted to co-act with the structure of the shiftable work support and including a peripheral way comprising a plurality oi.' connecting sections, certain of which extend in a 5 direction to permit the shifting of the work support and other sectionsextending transversely s with respect to the-first mentioned sections and adapted t prevent movement-of the work-supmovement of said rotary control means to intermittently position said transversely extendingA sections of the way for co-action with the work supporting means4 during the operativev functioning of the reciprocable tool supporting means, and means for controlling the reciprocation o f the tool supporting means in timed relation with 'the intermittent movement of the work supporting means.

17. In boring machines and'lthe like, a linearly 20 reciprocable work support, a tool support reciprocable transversely with respect to the movement of said work support, means for eifecting the reciprocation of -said tool support, means for automatically controlling the speed of travel of 25 said tool support, said means being adapted to effect rapid traverse of said tool support during a predetermined interval and a slower traverse during another interval, reversible actuating means operable progressively and intermittently 30 in a given direction for imparting step by step movement of said work support in a given direction in timed relation with respect to the movement of said tool support and for returning said work support upon the completion of the step- 35 by-step -movement thereof, abutment means for preventing the overrunning of the work support and cooperating with said reversible actuating means in effecting the step-by-sp movement of the work support, and clamping m'eans on said 40 work support for securing the work piece in proper position to .be machined.

18. In boring machines and the like, a recipro-4 cable work support, a tool support shiftable transversely with respect to the movement of 45 said work support, a reciprocable hydraulic actuator connected with the work support, a hydraulic actuator connected withthe tool support, fluid pumping means, a shiftabie valve forv I controlling'the delivery of iluid to said hydraulic 50.

actuators, means for successively interrupting the movement of the work support as said support is mowed in a, given direction by said re-l .ciprocable hydraulic actuator, means for securing a work piece in position upon said work support, end means operable in response to the shifting of the work supporting means to a given position for -governing the timed shifting of said control valve to a predetermined position.

19. In boringl machines and.' the like, a ma- 60 chine frame, a work support reciprocably mounted on said frame, a headframe reciprocably mounted upon said machine frame andadapted for movement in a direction transverse to the movement of the work support, a rotary tool d rivf 05 association with a supported work piece, a re' ciprocable hydraulic actuator for moving said work support in opposite directions, means for eifecting the successive interruption of the movement of the work support as said support is 5 moved in a given direction, the hydraulic actuator associated with the work support-cooperat-V ing with said interrupting means to locate said work support in preselectedV positions relative to a supported tool, fluid pumping mechanism.

means carried by the,work support ior securing a work piece -in position thereon, and valve means automatically' operable for controlling the delivery of uid to said actuators.

, In boring machines and the like, a machine frame, a work' support reciprocably mounted on said frame. a head frame reciprooably mounted upon said machine frame and adapted z forv movement in a direction transverse 'to'. the

movement of the work support, a rotary tool driving spindle onsaid head frame, power means on said head frame-for driving said spindle, a hydraulic actuator for imparting movement to said head frame whereby to cause a tool carried thereby to be moved into and out of operative association with-a supported'work piece, a reciprocable hydraulic actuator for moving said work supportin opposite directions, means for effecting the successive interruption of, the movement of the work support as s aid support is moved in a given direction, the hydraulic actuator associated with the work support cooperating with said interrupting means to locate said work support in preselected positions rela- ;tive to a supported tool,l uid pumping mecha? nism, means on the work support for securing Va work piece. in position thereon, and shiftable valve means for controlling the delivery of iiuid to said actuators, said valve means being automatically shiftable upon the completion of the last movement of the work support.

21,. In metal working apparatus of the class described, a reciprocable carriage for supporting and positioning a work piece, a rotary member -positioned beneath said carriage having a peripheral vway including a plurality of connected sections forming an undulated .path along the peripheral surfaceof said rotary member, a follower operatively associated with the carriage and extending into said peripheral way, certain ofsaid sections providing abutments for said follower, hydraulic means for actuating. said car.- ri'age, means -for successively imparting partial rotation to said rotary means to permitl intermittent forward movement of said carriage, and means for supporting a tool to engage a work piece supported by said carriage.

22. In boring machines and the like, a linearly reciprocable work support. a4 toolsupport reciprocable transversely with respect tothe movement of Asaid work support, means for eifecting the reciproc'ation of said tool support, means for automatically controlling the speed of travel of 'said tool support, said means being adapted to effect rapid traverse of said tool support during a predetermined interval and a slower traverse during another interval, reversible actuating means op- Yerable progressively and intermittently in a given direction for imparting step-by-step movement of saidwork4 support in a given direction in timed relation with respect to the movement of said tooll support and .for returningl said work support upon the completion of the step-by-step movement thereof, abutment means cooperating to i positively stop and position the work'support during said intermittent movement, and means on said work 'support for securing a work piece in proper position to be machined.

Y 23. In boring machines and the like, a linearly i reciprocable work support, a tool support reciprocable transversely with respect to the movement of said.work support,' means for eifecting the reciprocation ofsaid tool support, means for automatically controllingthe speed of travel of said tool support, said means being adapted to eiect 5 rapid traverse of said tool support during 'a pre--I determined interval and a slower traverse dur ing another interval, reversible actuating means including a cylinder and piston construction operable progressively and intermittently in a give'nll) direction for imparting step-'by-step movement of said work support in a given direction in timed relation with respect to the movement of said tool support and for returning said work support upon the completion lof the step-by-step movement l5 thereof, a stop device including mechanical means cooperating directly with the work support for preventing the overrunning thereof and cooperating with said reversible actuating means in effecting the step-by-step movement of the work supzo, port, and means for securing a work piece on said' work support in proper position to be machined. 24.. In'boring machines and the like. a linearly reciprocable work support, a tool support recip-4 rocable transversely with respect to the move-.25

ment of said work support., hydraulic actuator l means for eifecting the reciprocation of the tool support, means for automatically controlling the speed of travel of said tool support, said means being adapted to effect rapid traverse of said tool support during a. predetermined interval and a slower traverse during another interval, reversible actuating means including a cylinder and piston construction operable progressively and intermittently in a given direction for imparting step-by-step movement of said work support in a' given' direction in timed relation with .respect to the movement'of said tool support and for -Ie- L turning' said work support upon the completion of the step-by-step movement thereof, a mechani- 40 cal stop device cooperating directly with the workl support for preventing the over-running thereof and cooperating with said reversible actuating means in effecting the step-by-step movement of the work support, and means for securing a work piece on said work support in proper position to be machined.

25. In boring machines and the like, a linear -reciprocable work support, a tool support reciprocable transversely with respect to the movement of said work support, means for eilecting reciprocation of said too l support. means for auto-- rnaticaliy controlling the speed of travel of said tool support whereby to cause rapid traverse and slower traverse to said tool support at predetermined intervals during the cycle of operation thereof, reversible actuating means operable progressively and intermittently in a given direction for imparting step-by-step movement to said work support in a given direction in timed relation withrespect to the movement of said tool support and for returning said work support upon the completion of the step-by-step movement thereof, abutment means for preventing the over-running of the work support and cooperan-'55 ing with said reversible actuating means in eifecting the step-by-step movement of the work support, and means automatically operable af r the dwell of the work support at itsA last posiizlA for reversing said support to its starting position I means including a plurality 'of spaced abutments adapted for successive' engagement' to positively' interrupt the movement o! the carriage in timed relation with the movement of the tool supporting means, said abutments providing successive positive stops for accurately positioning said work supporting means during each dwell thereoi, 'and 'reversible actuating means for imparting linear movement to said carriage structure from a starting position into successive positions of engagement with said abutments to thereby effect a progressive intermittent linear movement and-a return movement of said carriage, saidv reversible actuating means being operable to maintain said work support during the period of intermittent movement constantly advanced from said starting position.

27. In metal working apparatus, a reciprocable zo carriage for supporting and ,positioning a work l piece and capable, of progressive intermittent linear movement in a' given direction, a Itool supporting means shiftable transversely. with respect to the linear movement of the carriage, means including a'. plurality of spaced abutments adapted for successive engagement to positively interrupt the movement of the carriage in' timed relation with the movement of the tool supporting means,

said abutments providing successive positive stops 80 for accurately lpositioning said'work supporting means during each dwell thereof, and reversible iluid operated mechanism for imparting linear movement to said carriage structure from a starting position into successive positions oi engagement with said abutments to thereby eiIect a progressive intermittent linear movement and a return movement oisaid carriage,.said reversible iluid operated mechanism being operable to maintain said vwork support during the periodl 40 of intermittent movement constantly advanced iromsald starting position.

' 28. In boring machines and the like, amachin'e frame, a work support reciprocably mount- Y ed on saidv frame, a head frame reciprocably mounted upon said machine frame and adapted for movement in a direction transverse jto the movement of the work support.' a rotary tool driving spindle on said head frame, power means on said head frame for driving said spindle, a'

hydraulic actuator for imparting movement to said head frame whereby to cause 'a tool carried thereby to be'moved into and outcf operative association with a supported work pice, a re` l ciprocable actuator means including a cylinder and piston' construction for moving said work support 'in opposite directions, means for eiecting the' successive interruptionoi' the movement' of the work 'support as said support is -moved in a given direction, the actuator assooo 4ciat'ed with the work support cooperating with said interrupting means to locate said work support in preselected positions relative to .a supported tool, iiuid pumping" mechanism, means carried by the worksupport forsecuring a workY Ii5 piece in position thereomand valve means automatically operable'tor controlling the delivery of iluid 'to said actuators,

A29. In boring machines and ther-like., amachine frame, a work support reciprocably mounted on said frame, a he'ad frame reciprocably mounted upon said machine frame and adapted for movement in a direction transverse to the movement of the work support, a' rotary tool' driving spindle'on said head frame, power means on saidhead frame for driving said spindle, a

lfd

spect to the linear movement oi theearriage,"

'hydraulic actuator for imparting movement to said head frame whereby to cause a tool carried thereby to'be moved into and out of operative association with a supported work piece, a

reciprocable hydraulic actuator for moving said l,

work 'support in opposite directions, shiitable abutment means for effecting the successive interruption of the movement of the work'support as said support is moved in a given direction, the hydraulic actuator associated with the work supl0 port cooperating with said interrupting means to locate said work support in preselected positions relative to a supported tool, fluid pumping mechanism, means carried by the work support for securing a work piece in position thereon, and 15 valve means automatically operable for `controlling .the delivery of fluid to said actuators.

30. In boring machines' and the like, a linearly reciprocable work support, a tool support reciprocable transversely with respect to the move- 20 ment of sai'd work support. means for eiecting the reciprocation oi said tool support, means for automaticallyv controlling the speed of travel of said-tool support, said means being adapted to eilect rapid traverse of said tools-apport during 2! a predetermined interval and a slower traverse during another interval, reversible actuating means operable progressively and intermittently in a given direction for imparting step-by-step movement ofsaid work support. in a given direc- 3( tion in timed relation with respect to the movement of said tool support and for returning said work support upon the completion of the stepby-step movement thereof, shiftable abutment means for preventing the overrunning of the 3i work support and cooperating with said reversiblevactuating means in effecting the step-by-step movement of the work support, and means on said work support for. securing a work piece in position to be machined.

3l. In metal working apparatus, areciprocable carriage for supporting and positioning a work piece, a tool support reciprocable transversely with respect to the movement of said carirage. means for elfecting the shifting of said tool sup- .4f port, means for controlling the speed of travel of said tool support in timed relation with the movement of said carriage, reversibleactuating 'means operable .progressively and' intermittently in a' given direction for imparting stepby-step 5 movement to said carriageinia given direction in timed' relation `with respect to the movement of said tool support'and for returning said carriage upon the completionci said step-'by-step movement, means on the work support for prop- 5: erly locating a work piece in position to'be acted uponby a supported tool. abutment means for preventing the overrunning of the carriage and cooperating with said reversible actuating. means ineffecting said step-by-step movement, and a single manually operable mechanism for-controlling the movements o i' said'carrlage and tool support. v

32. In metal .working apparatus, a recipro- 6; cable carriage for supporting and positioning a work piece, a to'ol'support reciprocable transversely with respect to the movement oil-said carriage, means for eiecting the shifting of said tool support, means for controlling the 'speed of 7i travel ofsaidtoolV support in timed relation with the' movement of said carriage, reversible actu-- ating means operable progressively' and intermittently in a given direction for imparting step-bystep movement to said carriage in a 'given direc- 7lspaanse tion in timed relation with respect to the movement of said tool support and for returning said carriage upon the `completion oi' said step-bystep movement', 'means on the work support for properly locating a work piece in position to be acted upon b y a supported tool, abutment means for preventing the overrunning of the carriage and cooperating with said reversiblenactuating means in effecting said step-by-step movement, and means for preventing'the shiftingv of the carriage until the tool support has withdrawn the toolv supported thereby from the work.

33. In boringmachines and the like, a machine Vframe, a work support reciprocably mounted on said frame, a head lframe reciprocably mounted upon said machine frame ,and adapted for' movement in a direction transverse to the movement of the work support, a

.rotary tool driving spindle on said head frame,

power means on said head frame for driving said spindle, a hydraulic actuator for imparting movement to said head frame whereby to cause a tool carried thereby to be moved into and out of operative association with a supported work piece, a "reciprocable hydraulic actuator forl movi'ng said work support in opposite directions, means for effecting the successiveinterruption of the movement of the work support as said support -is moved in a given direction, the hydraulic actuator associated with the work support cooperating with said interrupting means vto locate said work support in preselected positions relative to a supported tool, fluid pumping mechanism, means carried by the work support for securing a work piece in position thereon, valve means automatically operable for controlling the delivery of uid to said actuators. and means for preventing reciprocation of said head frame during the reversalof. said work support.

34. In metal working apparatus, a support for supporting and positioning a work piece, a ro- \tary tool, a support for-said rotary tooloperatively associated therewith, one of said supports support in timed relation with respect to the movement of vthe other support, means for automatically controlling the speed of relative axial 10 movement between said tool and work'supports, abutment means for preventing the overrunning of the transversely movable support and cooperating with saidreversible actuating'means in efi'ecting the intermittent movement of. said trans- 15 versely' movable support, and means for retaining a work piece inl position upon said work support.

35. In metal working apparatus, a support for supporting and positioning a work piece, a rotary '20" tool, a support for said rotarytool operatively associated' therewith,one of said supports being linearly movable in parallelism with the axis of said supported tool and the other being linearly movable transversely of said tool axis, reversible 25 actuating means including a' cylinder and piston construction operable progressively and intermittently in a given direction for imparting intermittent forward movement and reverse movement to said transversely movable support in 30 timed relation with respect to the movement of the other support, means for automatically controlling the speed of relative axial movement between said tool and work supports, abutment means for preventing the overrunning of the 35 transversely movable support and cooperating with said reversible'actuating means in` eiecting the intermittent movement of said transversely movable support, and means for retaining a work piece in position upon said work support. 40

JOHN s. BARNES. PAUL a. GUmL.

DISCLAIMER 2,020,868. -Jolm S. Barnes land Paul R. Gurl, Rockford, "111. BORING MACHINE AND THE LIxn. Patent dated N ovember 12, 1935. Disclaimer filed September 24, 1943, by the assignee, Odin Corporation.

Hereby enters this: disclaimer `to claims 1, 2, 7, 8, 9, 10, 11,"1/7, 19, 22, 23, 24, 25,

26, 27, 2s, 29,. 3o, 31, 32, a3, 34, and 35..

Gazette November .9, 17943.]

spaanse tion in timed relation with respect to the movement of said tool support and for returning said carriage upon the `completion oi' said step-bystep movement', 'means on the work support for properly locating a work piece in position to be acted upon b y a supported tool, abutment means for preventing the overrunning of the carriage and cooperating with said reversiblenactuating means in effecting said step-by-step movement, and means for preventing'the shiftingv of the carriage until the tool support has withdrawn the toolv supported thereby from the work.

33. In boringmachines and the like, a machine Vframe, a work support reciprocably mounted on said frame, a head lframe reciprocably mounted upon said machine frame ,and adapted for' movement in a direction transverse to the movement of the work support, a

.rotary tool driving spindle on said head frame,

power means on said head frame for driving said spindle, a hydraulic actuator for imparting movement to said head frame whereby to cause a tool carried thereby to be moved into and out of operative association with a supported work piece, a "reciprocable hydraulic actuator forl movi'ng said work support in opposite directions, means for effecting the successiveinterruption of the movement of the work support as said support -is moved in a given direction, the hydraulic actuator associated with the work support cooperating with said interrupting means vto locate said work support in preselected positions relative to a supported tool, fluid pumping mechanism, means carried by the work support for securing a work piece in position thereon, valve means automatically operable for controlling the delivery of uid to said actuators. and means for preventing reciprocation of said head frame during the reversalof. said work support.

34. In metal working apparatus, a support for supporting and positioning a work piece, a ro- \tary tool, a support for-said rotary tooloperatively associated therewith, one of said supports support in timed relation with respect to the movement of vthe other support, means for automatically controlling the speed of relative axial 10 movement between said tool and work'supports, abutment means for preventing the overrunning of the transversely movable support and cooperating with saidreversible actuating'means in efi'ecting the intermittent movement of. said trans- 15 versely' movable support, and means for retaining a work piece inl position upon said work support.

35. In metal working apparatus, a support for supporting and positioning a work piece, a rotary '20" tool, a support for said rotarytool operatively associated' therewith,one of said supports being linearly movable in parallelism with the axis of said supported tool and the other being linearly movable transversely of said tool axis, reversible 25 actuating means including a' cylinder and piston construction operable progressively and intermittently in a given direction for imparting intermittent forward movement and reverse movement to said transversely movable support in 30 timed relation with respect to the movement of the other support, means for automatically controlling the speed of relative axial movement between said tool and work supports, abutment means for preventing the overrunning of the 35 transversely movable support and cooperating with said reversible'actuating means in` eiecting the intermittent movement of said transversely movable support, and means for retaining a work piece in position upon said work support. 40

JOHN s. BARNES. PAUL a. GUmL.

DISCLAIMER 2,020,868. -Jolm S. Barnes land Paul R. Gurl, Rockford, "111. BORING MACHINE AND THE LIxn. Patent dated N ovember 12, 1935. Disclaimer filed September 24, 1943, by the assignee, Odin Corporation.

Hereby enters this: disclaimer `to claims 1, 2, 7, 8, 9, 10, 11,"1/7, 19, 22, 23, 24, 25,

26, 27, 2s, 29,. 3o, 31, 32, a3, 34, and 35..

Gazette November .9, 17943.] 

